@INPROCEEDINGS{ref1, 
author={Coetzee, L. and Eksteen, J.}, 
booktitle={IST-Africa Conference Proceedings, 2011}, 
title={The Internet of Things - promise for the future? An introduction}, 
year={2011}, 
pages={1-9}, 
keywords={Internet;organisational aspects;China;European commission;European country;Green-IT;Internet;Internet of things;broadband connectivity;energy efficiency;on-board sensor;Decision making;Intelligent sensors;Internet;Security;Smart phones;Temperature sensors;Internet of Things;broadband connectivity;standardisation;ubiquitous computing},}

@INPROCEEDINGS{ref2, 
author={Chia-Wen Lu and Shu-Cheng Li and Quincy Wu}, 
booktitle={Sensing Technology (ICST), 2011 Fifth International Conference on}, 
title={Interconnecting ZigBee and 6LoWPAN wireless sensor networks for smart grid applications}, 
year={2011}, 
pages={267-272}, 
keywords={IP networks;Internet;Zigbee;routing protocols;telecommunication network management;wireless sensor networks;6L0WPAN;IP-based services;IPv6;Internet protocol version 6;WSN;ZigBee protocol;application-layer translator;end-to-end communications;network management;network management service;network routing;small-scale networks;smart grid;wireless sensor network;IP networks;Internet;Protocols;Servers;Smart grids;Wireless sensor networks;Zigbee;IPv6;Internet of Things;Network Management;Smart Grid;Wireless Sensor Network;ZigBee}, 
doi={10.1109/ICSensT.2011.6136979}, 
ISSN={2156-8065},}

@INPROCEEDINGS{ref3, 
author={Kouche, A.E.}, 
booktitle={Communications (ICC), 2012 IEEE International Conference on}, 
title={Towards a wireless sensor network platform for the Internet of Things: Sprouts WSN platform}, 
year={2012}, 
pages={632-636}, 
keywords={Zigbee;middleware;wireless sensor networks;IoT;Ontario Centre of Excellence;Sprouts;WSN platform architecture;Zigbee-based WSN;architectural design decisions;de-facto MSP430/AVR;internet of things;module-oriented DREAMS middleware architecture;wireless sensor network platform;Computer architecture;Energy harvesting;Hardware;Middleware;Standards;Wireless sensor networks;Zigbee;Applications;Architecture;Embedded Systems;Energy Harvesting;Industrial;Internet of Things;Middleware;Network;Oil Sands;Platform;RFID;Remote Trigger;WSN}, 
doi={10.1109/ICC.2012.6364196}, 
ISSN={1550-3607},}

@INPROCEEDINGS{ref4, 
author={Qian Zhu and Ruicong Wang and Qi Chen and Yan Liu and Weijun Qin}, 
booktitle={Embedded and Ubiquitous Computing (EUC), 2010 IEEE/IFIP 8th International Conference on}, 
title={IOT Gateway: BridgingWireless Sensor Networks into Internet of Things}, 
year={2010}, 
pages={347-352}, 
keywords={Internet;Zigbee;internetworking;mobile communication;packet radio networks;wireless sensor networks;GPRS protocol;IOT gateway;Internet;Zigbee;data transmission;mobile communication network;wireless sensor network;GPRS;IOT;WSN;Zigbee;gateway}, 
doi={10.1109/EUC.2010.58},}

@inproceedings{ref5,
 author = {Mart\'{\i}n, Jorge and G\'{o}mez, Igor and Montoya, Eduardo and Song, Jie and Olloqui, Jorge and Mart\'{\i}nez, Roc\'{\i}o},
 title = {BatNet: an implementation of a 6LoWPAN sensor and actuator network},
 booktitle = {Proceedings of the fourth international conference on Future energy systems},
 series = {e-Energy '13},
 year = {2013},
 isbn = {978-1-4503-2052-8},
 location = {Berkeley, California, USA},
 pages = {281--282},
 numpages = {2},
 url = {http://doi.acm.org.eaccess.ub.tum.de/10.1145/2487166.2487207},
 doi = {10.1145/2487166.2487207},
 acmid = {2487207},
 publisher = {ACM},
 address = {New York, NY, USA},
 keywords = {6LoWPAN, 802.15.4, CoAP, IoT, RPL, WSN, contiki OS, home automation},
} 

@INPROCEEDINGS{ref6, 
author={Qinghai Ou and Yan Zhen and Xiangzhen Li and Yiying Zhang and Lingkang Zeng}, 
booktitle={Mobile, Ubiquitous, and Intelligent Computing (MUSIC), 2012 Third FTRA International Conference on}, 
title={Application of Internet of Things in Smart Grid Power Transmission}, 
year={2012}, 
pages={96-100}, 
keywords={Internet;power transmission;smart power grids;Internet of Things;IoT technology;natural disasters;online monitoring system;power grid infrastructure;power grid system;power transmission line;reliability;smart grid power transmission;Conductors;Internet;Monitoring;Power transmission lines;Smart grids;Temperature sensors;Internet of Things;Power transmission;Smart grid}, 
doi={10.1109/MUSIC.2012.24},}

@INPROCEEDINGS{ref7, 
author={Yerra, R.V.P. and Bharathi, A.K. and Rajalakshmi, P. and Desai, U.B.}, 
booktitle={Intelligent Sensors, Sensor Networks and Information Processing (ISSNIP), 2011 Seventh International Conference on}, 
title={WSN based power monitoring in smart grids}, 
year={2011}, 
pages={401-406}, 
keywords={cellular radio;power system measurement;radiotelemetry;smart power grids;wireless mesh networks;wireless sensor networks;GSM technology;IRIS motes;WSN based power monitoring;data analysis;electric power systems;energy efficient building design;load monitoring;multihop wireless mesh network;nonconventional source;power theft detection algorithm;prototype power sensing module;smart automation systems;smart grid technology;smart metering;GSM;Integrated circuits;Mathematical model;Monitoring;Radiation detectors;Wireless sensor networks;multihop;power sensing module;smartgrid}, 
doi={10.1109/ISSNIP.2011.6146589},}

@INPROCEEDINGS{ref8, 
author={Miao Yun and Bu Yuxin}, 
booktitle={Advances in Energy Engineering (ICAEE), 2010 International Conference on}, 
title={Research on the architecture and key technology of Internet of Things (IoT) applied on smart grid}, 
year={2010}, 
pages={69-72}, 
keywords={Internet;power engineering computing;smart power grids;Internet-of-things infrastructure;IoT infrastructure;smart grid;Biological system modeling;Biomedical monitoring;Computational modeling;Fires;Monitoring;Object recognition;Security}, 
doi={10.1109/ICAEE.2010.5557611},}

@INPROCEEDINGS{ref9,
author={Jung, M. and Reinisch, C. and Kastner, W.},
booktitle={Innovative Mobile and Internet Services in Ubiquitous Computing (IMIS), 2012 Sixth International Conference on},
title={Integrating Building Automation Systems and IPv6 in the Internet of Things},
year={2012},
pages={683-688},
keywords={IP networks;Internet;actuators;building management systems;home automation;sensors;ubiquitous computing;virtual reality;BA;BACnet;IPv4;IPv6;Internet of Things;IoT;actuators;address space;automation tier;building automation systems;control devices;de-facto standard;field tier nonIP communication;integration scenarios;layered system architecture;management tier;pervasive computing;physical objects;power line;radio frequency technologies;selfconfiguration;sensors;service quality mechanisms;smart building operation;supply chains;sustainable building operation;twisted pair;ubiquitous computing;virtual representation;Automation;Buildings;IP networks;Internet;Logic gates;Protocols;Servers;Building Automation;IPv6;Internet of Things},
doi={10.1109/IMIS.2012.134},}
@online{ref10,
title = {Disruptive Civil Technologies},
date = {April 2008},
url = {http://www.fas.org/irp/nic/disruptive.pdf},}

@INPROCEEDINGS{ref11, 
author={Li Li and Hu Xiaoguang and Chen Ke and He Ketai}, 
booktitle={Industrial Electronics and Applications (ICIEA), 2011 6th IEEE Conference on}, 
title={The applications of WiFi-based Wireless Sensor Network in Internet of Things and Smart Grid}, 
year={2011}, 
pages={789-793}, 
keywords={Internet;computerised monitoring;power engineering computing;smart power grids;video surveillance;wireless LAN;wireless sensor networks;Internet of Things;IoT;Wi-Fi-based WSN;Wi-Fi-based wireless sensor network;ZigBee;information technology;intelligent environment protection;smart agriculture;smart grid;video monitoring;IEEE 802.11 Standards;Internet;Monitoring;Smart grids;Wireless communication;Wireless sensor networks;Zigbee;Application;Internet of Things;Smart Grid;WiFi-based WSN}, 
doi={10.1109/ICIEA.2011.5975693}, 
ISSN={pending},}
@INPROCEEDINGS{ref12, 
author={Glombitza, N. and Pfisterer, D. and Fischer, S.}, 
booktitle={Sensor Mesh and Ad Hoc Communications and Networks (SECON), 2010 7th Annual IEEE Communications Society Conference on}, 
title={LTP: An Efficient Web Service Transport Protocol for Resource Constrained Devices}, 
year={2010}, 
pages={1-9}, 
keywords={Web services;information technology;transport protocols;wireless sensor networks;Internet of Things;IoT devices;LTP;PC class systems;WSN;Web service messages;Web service transport protocol;business processes;enterprise IT servers;lean transport protocol;light-weight Web Service transport protocol;resource constrained devices;resource-constraint devices;resource-constraint networks;sensor nodes;service-oriented architectures;wireless sensor networks;Home appliances;IP networks;Large scale integration;Network servers;Service oriented architecture;Transport protocols;Web and internet services;Web server;Web services;Wireless sensor networks}, 
doi={10.1109/SECON.2010.5508255},}
@INPROCEEDINGS{ref13, 
author={Mainetti, L. and Patrono, L. and Vilei, A.}, 
booktitle={Software, Telecommunications and Computer Networks (SoftCOM), 2011 19th International Conference on}, 
title={Evolution of wireless sensor networks towards the Internet of Things: A survey}, 
year={2011}, 
pages={1-6}, 
keywords={IP networks;Internet;personal area networks;wireless sensor networks;6LoWPAN-IPv6;IP-based sensor networks;Internet of things;IoT;WSN;actuator technology;all-IP infrastructure;building automation;environment monitoring;smart metering;wireless sensor network evolution;Automation;Buildings;Internet;Protocols;Wireless communication;Wireless sensor networks;Zigbee},}
@report{ref14,
author = {Dave Evans},
title = {The Internet of Things: How the Next Evolution of the Internet 
Is Changing Everything},
type = {White paper},
institution = {Cisco IBSG},
year = {2011},}
@INPROCEEDINGS{ref15, 
author={Khan, R. and Khan, S.U. and Zaheer, R. and Khan, S.}, 
booktitle={Frontiers of Information Technology (FIT), 2012 10th International Conference on}, 
title={Future Internet: The Internet of Things Architecture, Possible Applications and Key Challenges}, 
year={2012}, 
pages={257-260}, 
keywords={Internet of Things;learning (artificial intelligence);Internet of Things architecture;generic architecture;machine-to-machine learning;Computer architecture;Intelligent sensors;Internet;Monitoring;Security;Sensor systems;Internet of Things;IoT applications;IoT architecture;IoT security;RFID;ubiquitous computing}, 
doi={10.1109/FIT.2012.53},}
